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https://opencores.org/ocsvn/noc/noc/trunk
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[/] [noc/] [trunk/] [core.cc] - Rev 2
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#include <systemc> #include <iostream> #include "core.h" #include "define.h" using namespace std; void core :: transfer_data() { sc_uint<FIFO_DEEP> buff; sc_uint<FIFO_DEEP> f_ct[3]; sc_uint<3> channel = 0; sc_uint<3> sel = 0; sc_uint<8> data_address = 0; bool stop_flag = 0; bool temp = 0; bool ready = 0; while(true){ if(!reset_n.read()){ stop_flag = 0; f_ct[0] = f_ct[1] = f_ct[2] = 0; data_address = 0; } else{ if(clk.read()){ write_n->write(true); if(((full->read()&0x01) != 0x01) && ((write_state & FIFO1) == FIFO1)){ sel = 1; channel = 0; stop_flag = 0; f_ct[channel]++; data_address = write_address[0]; } else if(((full->read()&0x02) != 0x02)&&((write_state & FIFO2) == FIFO2)){ sel = 2; channel = 1; stop_flag = 0; f_ct[channel]++; data_address = write_address[1]; } else if(((full->read()&0x04) != 0x04)&&((write_state & FIFO3) == FIFO3)){ sel = 3; channel = 2; stop_flag = 0; f_ct[channel]++; data_address = write_address[2]; } else{ sel = 0; stop_flag = 1; } core_to_fifo_sel->write(sel); ready = 1; } else if((ready == 1) && (stop_flag == 0)){ if(((f_ct[channel] - 1) < FIFO_DEEP)){ buff = wmemory[data_address]; temp = (bool)((buff >> (f_ct[channel] - 1)) & 0x0001); data_out->write(temp); wait(1,SC_NS); write_n->write(false); ready = 0; EI_POWER; } if((f_ct[channel]) == FIFO_DEEP){ #ifdef CORE_TRANSMIT_DEBUG short debug_temp = 0; for(int dc = 0; dc <= FIFO_DEEP; dc++){ debug_temp = wmemory[data_address]; debug_temp = debug_temp >> dc; debug_temp &= 0x0001; if(dc == 0){ cout << "Core [" << core_id << "] channel[" << channel << "] " << " transmit data: \t\t"; cout << debug_temp; } else if(dc < FIFO_DEEP){ cout << debug_temp; } } cout << endl; #endif EI_POWER; wmemory[data_address] = 0; f_ct[channel] = 0; if(channel == 0){ write_state &= ~FIFO1; } else if(channel == 1){ write_state &= ~FIFO2; } else if(channel == 2){ write_state &= ~FIFO3; } } } } wait(); } } void core :: receive_data() { sc_uint<FIFO_DEEP> rec_buff = 0; sc_uint<FIFO_DEEP> f_ct[3]; //fifo deep counter. sc_uint<2> sel = 0; sc_uint<2> channel = 0; sc_uint<8> data_address = 0; bool temp = 0; bool ready = 0; f_ct[0] = f_ct[1] = f_ct[2] = 0; while(true){ wait(); if(!reset_n.read()) { f_ct[0] = f_ct[1] = f_ct[2] = 0; } else{ if(clk.read()){ read_n->write(true); if(((empty->read()&0x01) != 0x01) && ((read_state & FIFO1) == FIFO1)){ channel = 0; sel = 1; f_ct[channel]++; ready = 1; data_address = read_address[0]; } else if(((empty->read()&0x02) != 0x02) && ((read_state & FIFO2) == FIFO2)){ channel = 1; sel = 2; f_ct[channel]++; ready = 1; data_address = read_address[1]; } else if(((empty->read()&0x04) != 0x04) && ((read_state & FIFO3) == FIFO3)){ channel = 2; sel = 3; f_ct[channel]++; ready = 1; data_address = read_address[1]; } else{ ready = 0; sel = 0; } fifo_to_core_sel->write(sel); } else if(ready == 1){ if((f_ct[channel]-1) < FIFO_DEEP){ read_n->write(false); wait(2,SC_NS); temp = data_in->read(); rmemory[data_address] |= (temp << (f_ct[channel]-1)); ready = 0; EI_POWER; } if((f_ct[channel]) == (FIFO_DEEP)){ f_ct[channel] = 0; if(channel == 0) read_state &= ~FIFO1; else if(channel == 1) read_state &= ~FIFO2; else if(channel == 2) read_state &= ~FIFO3; #ifdef CORE_RECEIVE_DEBUG short debug_temp = 0; for(int dc = 0; dc <= FIFO_DEEP; dc++){ debug_temp = rmemory[data_address]; debug_temp = debug_temp >> dc; debug_temp &= 0x0001; if(dc == 0){ cout << "Core [" << core_id << "] channel[" << channel << "] " << " receive data: \t\t"; cout << debug_temp; } else if(dc < FIFO_DEEP){ cout << debug_temp; } } rmemory[data_address] = 0; cout << endl; #endif } } } } } char core :: write_data(sc_uint<3> sel, sc_uint<8> addr) { sc_uint<3> fifo = 0; if(!(write_state & sel)){ if(sel == FIFO1) fifo = 0; else if(sel == FIFO2) fifo = 1; else if(sel == FIFO3) fifo = 2; else cout << "error" << endl; write_address[fifo] = addr; write_state |= sel; return SUCCEED; } else return FAIL; } char core :: read_data(sc_uint<3> sel, sc_uint<8> addr) { sc_uint<3> fifo = 0; if(!(read_state & sel)){ if(sel == FIFO1) fifo = 0; else if(sel == FIFO2) fifo = 1; else if(sel == FIFO3) fifo = 2; read_address[fifo] = addr; read_state |= sel; return SUCCEED; } else return FAIL; } void core :: core_handle() { char state1 = FAIL, state2 = FAIL, state3 = FAIL, state4 = FAIL; char state5 = FAIL, state6 = FAIL; char rstate1 = 0, rstate2 = 0, rstate3 = 0; unsigned int delay = 0; HEAD_FLIT *head; BODY_FLIT *body; head = (HEAD_FLIT *)(wmemory+10); //0000 0010 1000 0000. head->type = 0; head->conn_type = 0; head->dst_addr = 4; head->pkt_size = 0; body = (BODY_FLIT *)(wmemory+11);//0100 1111 1111 0000 body->type = 1; body->data = 0x0ff0; body = (BODY_FLIT *)(wmemory+12);//0100 1000 1000 0000 body->type = 1; body->data = 0x0880; //Optical interconnects head = (HEAD_FLIT *)(wmemory+13); //0010 0100 0000 0000 head->type = 0; head->conn_type = 1; head->dst_addr = 15; head->pkt_size = 0; body = (BODY_FLIT *)(wmemory+14); //0100 0001 0001 0000 body->type = 1; body->data = 0x0110; body = (BODY_FLIT *)(wmemory+15); //0100 1111 1111 1111 body->type = 1; body->data = 0x0fff; while(true){ if(!reset_n.read()){ } else{ if(core_id == 0){ if(state1 == FAIL) state1 = write_data(FIFO1,10); if(state2 == FAIL) state2 = write_data(FIFO1,11); if(state3 == FAIL) state3 = write_data(FIFO1,12); if(state4 == FAIL) state4 = write_data(FIFO2,13); if(state4 == SUCCEED){ if(delay > 200){ if(state5 == FAIL) state5 = write_data(FIFO2,14); if(state6 == FAIL){ state6 = write_data(FIFO2,15); if(state6 == SUCCEED) delay = 0; } } else{ delay++; } } } rstate1 = read_data(FIFO1,0); rstate2 = read_data(FIFO2,1); rstate3 = read_data(FIFO3,2); } wait(); } }